US20090229475A1 - Cooking appliance - Google Patents
Cooking appliance Download PDFInfo
- Publication number
- US20090229475A1 US20090229475A1 US11/990,528 US99052806A US2009229475A1 US 20090229475 A1 US20090229475 A1 US 20090229475A1 US 99052806 A US99052806 A US 99052806A US 2009229475 A1 US2009229475 A1 US 2009229475A1
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- United States
- Prior art keywords
- cooking appliance
- safety signal
- appliance according
- board
- signal
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24C—DOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
- F24C15/00—Details
- F24C15/02—Doors specially adapted for stoves or ranges
- F24C15/027—Doors specially adapted for stoves or ranges located at bottom side of housing
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24C—DOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
- F24C7/00—Stoves or ranges heated by electric energy
- F24C7/08—Arrangement or mounting of control or safety devices
Abstract
A cooking appliance comprising at least one muffle which delimits a cooking chamber and whose muffle aperture is surrounded by a muffle frame, a door for closing the muffle aperture, said door being movable by means of a driving device, and a control circuit for triggering the driving device. The door can be moved only when at least one clearing safety signal is provided.
Description
- The present invention relates to a cooking appliance, in particular a high-level cooking appliance, having at least one muffle which delimits a cooking compartment and has a muffle opening, a door for closing the muffle opening, said door being movable by means of a drive device, and a control circuit for controlling the drive device.
- Prior art high-level cooking appliances are known in which a base door can be caused to move in the desired direction by actuation of a corresponding travel button.
- DE 101 64 239 A1, for example, discloses a generic high-level cooking appliance in which a control device controls the travel movement of a base door.
- A disadvantage is that a simple door travel movement control of this kind affords no protection whatever against a malfunction of the control device and, with the exception of the pinching instance, also provides no further protective measures for the operator.
- The object of the present invention is therefore to provide a cooking appliance, in particular a high-level cooking appliance, having improved operational safety during the travel movement of the base door.
- The present object is achieved by means of the cooking appliance having the features recited in
claim 1 and by means of a method as claimed in claim 18. - With that object in view, the cooking appliance, which is in particular a high-level cooking appliance but may also be a cooking appliance having a baking carriage, is designed in such a way that the door is only movable when at least one safety signal is present, which is to say a signal which activates specific functionalities by hardware or software means. Without the safety signal being present, no travel movement of the door is possible even when the travel switches are operated correctly. The safety signal is usually output by at least one processor unit, typically a microcontroller, in a defined manner, which is possible only if the device electronics or the electronics used for controlling the door's travel movement are in a proper condition. The safety signal can also be used to ensure compliance with further security conditions.
- To provide an improved safeguard against unintentional travel movement, the door can beneficially be moved only if two safety signals are present together.
- It is advantageous in particular if at least one of the safety signals is present or is generated only if a temperature of the closed cooking compartment is below a temperature threshold value, specifically if the temperature threshold value is 600° F. or 425° C. This can serve to prevent a user burning himself/herself on a part of the oven or on a dish that is too hot. It is equally advantageous if, in addition or alternatively, at least one of the safety signals is present only when a child safety device is not activated. By this means an unintentional travel movement triggered by children can be prevented.
- It is also favorable if the safety signals are pulsed signals, in particular square wave signals, since in this way, when microcontrollers are used, their correct operation is ensured.
- It is furthermore advantageous if a voltage supply for the drive device can additionally be switched on by means of one of the safety signals, since this results in a dual safety function (switching on/activation of the drive device).
- It is advantageous for a safe, reliable and flexible design if the control circuit includes at least one lift board for actuating the drive device and a regulator board for controlling, switching and/or regulating the lift board.
- Advantageously, a first, internal safety signal is generated by the lift board and a second, external safety signal is generated by the regulator board. The internal safety signal is preferably generated by the lift board in response to a travel movement signal S3, e.g. an actuation of a
travel switch panel - It is also advantageous if the drive device includes a drive motor which can be activated by means of directional relays which in turn are switchable in each case by means of at least one transistor, since transistors are particularly easy, quick and cheap to switch by means of control signals.
- A typical application scenario comprises the following steps:
- (a) generating a travel movement starting signal, in particular by actuating at least one travel switch panel;
- (b) receiving the travel movement starting signal at the lift board;
- (c) generating an internal safety signal on the lift board;
- (d) requesting an external safety signal from the regulator board by the lift board;
- (e) generating an external safety signal on the regulator board if no lock is present;
- (f) if no lock is present, outputting the external safety signal to the lift board and to a voltage supply for the drive device;
- (g) operating the drive device in the desired direction by means of the lift board, provided both the internal safety signal and the external safety signal are present.
- To simplify operator control, the drive device can advantageously be operated by actuating both travel switch panels even if the main switch is switched off.
- The invention is described in greater detail below with reference to the attached schematic figures, in which:
-
FIG. 1 shows a perspective view of a high-level cooking appliance which is mounted on a wall and has a lowered base door; -
FIG. 2 shows a perspective view of the high-level cooking appliance with closed base door; -
FIG. 3 shows a perspective view of a housing of the high-level cooking appliance without the base door; -
FIG. 4 shows a schematic side view, in cross section along the line I-I fromFIG. 1 , of the high-level cooking appliance which is mounted on the wall and has a lowered base door; -
FIG. 5 shows a front view of a further embodiment of a high-level cooking appliance; -
FIG. 6 is a schematic showing a layout of a control circuit in relation to a travel movement of the base door. -
FIG. 1 shows a high-level cooking appliance with ahousing 1. The rear side of thehousing 1 is mounted on awall 2 in the manner of a suspended cabinet. Acooking compartment 3, which can be monitored via aviewing window 4 installed in the front side of thehousing 1, is defined in thehousing 1. It can be seen fromFIG. 4 that thecooking compartment 3 is delimited by amuffle 5 which is equipped with a heat-insulating jacket (not shown) and that themuffle 5 has a base-side muffle opening 6. Themuffle opening 6 can be closed by means of abase door 7. Thebase door 7 is shown lowered inFIG. 1 , wherein its underside is in contact with awork surface 8 of a kitchen entity. In order to close thecooking compartment 3, thebase door 7 must be repositioned to the position shown inFIG. 2 , the so-called “zero position”. For the purpose of repositioning thebase door 7, the high-level cooking appliance has adrive device drive device drive motor 9 which is illustrated by means of broken lines inFIGS. 1 , 2 and 4 and is arranged between themuffle 5 and an external wall of thehousing 1. Thedrive motor 9 is arranged in the region of the rear side of thehousing 1 and, as shown inFIG. 1 or 4, has an active connection to a pair oflifting elements 10 which are connected to thebase door 7. In this case, as shown in the schematic side view inFIG. 4 , eachlifting element 10 is designed in the form of an L-shaped carrier whose vertical limb extends from thedrive motor 9 in the housing. For the purpose of repositioning thebase door 7, thedrive motor 9 can be actuated with the aid of anoperating panel 12, which is arranged on the front of thebase door 7 in accordance withFIGS. 1 and 2 , and acontrol circuit 13. As shown inFIG. 4 , thecontrol circuit 13 is located behind theoperating panel 12 within thebase door 7. Thecontrol circuit 13, which is composed of a plurality of spatially and functionally separate printed circuit boards that communicate via a communication bus, represents a central control unit for the appliance operation and controls and/or adjusts e.g. heating, travel of thebase door 3, conversion of user inputs, lighting, pinching protection, timing ofheating elements - It can be seen from
FIG. 1 that a top side of thebase door 7 has acooking matrix 15. Almost the entire surface of thecooking matrix 15 is occupied byheating elements 16, 17, 18, these being indicated inFIG. 1 by dash-dotted lines. InFIG. 1 , theheating elements 16, 17 are two separate cooking position heating elements of different sizes, while the heating element 18 is a surface heating element which is provided between the two cookingposition heating elements 16, 17 and almost surrounds the cookingposition heating elements 16, 17. The cookingposition heating elements 16, 17 define associated cooking zones or cooking rings for the user; the cookingposition heating elements 16, 17 and the surface heating element 18 together define an underside-heating zone. The zones can be indicated by means of a suitable motif on the surface. Theheating elements 16, 17, 18 can be controlled in each case via thecontrol circuit 13. - In the exemplary embodiment shown, the
heating elements 16, 17, 18 are embodied as radiant heating elements which are covered by a glassceramic plate 19. The glassceramic plate 19 has approximately the dimensions of the top of thebase door 7. The glassceramic plate 19 is also equipped with mounting openings (not shown), through which sockets project for the purpose of holdingsupport parts 20 forcooking item carriers 21, as is also shown inFIG. 4 . Instead of a glassceramic plate 19, it is also possible to use other—preferably quick-reacting—covers, e.g. thin sheet metal. - With the aid of an operating knob which is provided in the
operating panel 12, the high-level cooking appliance can be switched to a cooking position operating mode or an underside-heating operating mode, wherein these are explained below. - In the cooking position operating mode, the cooking
position heating elements 16, 17 can be controlled individually via thecontrol circuit 13 by means of operatingelements 11 which are provided in theoperating panel 12, while the surface heating element 18 remains unused. The cooking position operating mode can be implemented when thebase door 7 is lowered as shown inFIG. 1 . However, it can also be operated in an energy-saving function when thecooking compartment 3 is closed and thebase door 7 is raised. - In the underside-heating operating mode, the
control device 13 controls not only the cookingposition heating elements 16, 17 but also the surface heating element 18. - In order to achieve a maximally even browning impression of the cooking item during the underside-heating operation, it is critical that the
cooking matrix 15 which provides the underside heating exhibits an even distribution of the heat power output over the surface of thecooking matrix 15, even though theheating elements 16, 17, 18 have different nominal powers. Therefore theheating elements 16, 17, 18 are preferably not switched to a continuous operation by thecontrol circuit 13, but the current supply to theheating elements 16, 17, 18 is timed. In this case, the different nominal heating powers of theheating elements 16, 17, 18 are reduced individually in such a way that theheating elements 16, 17, 18 provide an equal distribution of the heating power output over the surface of thecooking matrix 15. -
FIG. 4 schematically shows the position of afan 23, e.g. for the generation of recirculating air in the case of hot air operation or for supplying fresh air. Furthermore, provision is made for a topside-heating element 22 which is attached at a top side of themuffle 5 and can be embodied as a single circuit or multiple circuit, e.g. having an inner circuit and an outer circuit. It is also possible—not shown here for the sake of greater clarity—to provide for further heating elements such as a ring heating element between a rear wall of thehousing 1 and the muffle. The different operating modes including e.g. topside-heating operation, hot-air operation or rapid-heating operation can be set by thecontrol circuit 13 by switching on and setting the heating power of theheating elements fan 23. The setting of the heating power can be done by means of suitable timing. In addition, thecooking matrix 15 can be embodied differently, e.g. with or without a grilling zone, as a simple heat-retention zone (featuring a single circuit or multiple circuits) without cooking rings, etc. Thehousing 1 has aseal 24 which faces thebase door 7. The operatingpanel 12 is normally arranged on the front side of thebase door 7. Alternatively, other arrangements are also conceivable, e.g. on the front side of thehousing 1, divided over various partial panels and/or partly on side surfaces of the cooking appliance. Further configurations are possible. The operatingelements 11 are not restricted in terms of their construction, and can comprise e.g. operating knobs, tumbler switches, pushbuttons and plastic membrane buttons. Thedisplay elements 14 comprise e.g. LED, LCD and/or touchscreen displays. -
FIG. 5 schematically shows a high-level cooking appliance from the front (not to scale), wherein thebase door 7 is open and is in contact with thework surface 8. The closed state is drawn by means of a broken line. - In this embodiment there are two
travel switch panels 25 on the front side of the permanently attachedhousing 1. Eachtravel switch panel 25 comprises two pushbuttons, specifically anupper CLOSE pushbutton 25 a which causes abase door 7 to travel upward in a closing direction, and alower OPEN pushbutton 25 b which causes abase door 7 to travel downward in an opening direction. Without automatic operation (see below) thebase door 7 only travels upward as a result of continuous simultaneous depression of theCLOSE buttons 25 a of bothtravel switch panels 25, if possible; thebase door 7 also only travels downward as a result of continuous simultaneous depression of theOPEN buttons 25 b of bothtravel switch panels 25, if possible (manual operation). Since increased operating alertness on the part of the user is assumed in the case of manual operation, and both hands are also used here, pinching protection is only optional. In the case of an alternative embodiment,travel switch panels 26 are attached on opposite external sides of thehousing 1 and have correspondingCLOSE buttons 26 a andOPEN buttons 26 b, as drawn using dotted lines. - The
control circuit 13, which is drawn using dash-dotted lines and is located in the interior of thebase door 7 behind the operatingpanel 12, switches thedrive motor 9 in such a way that thebase door 7 begins to move gently, i.e. not abruptly by simply starting thedrive motor 9, but by means of a defined ramp. - In this exemplary embodiment, the
control circuit 13 comprises amemory unit 27 for storing at least a destination or travel position P0, P1, P2, PZ of thebase door 7, preferably using volatile memory modules, e.g. DRAMs. If a destination position P0, P1, P2, PZ is stored, following actuation of one of thebuttons travel switch panels buttons base door 7 is to travel using the automatic operation, pinching protection is preferably activated. - Automatic operation and manual operation are not mutually exclusive: as a result of continuous actuation of the travel switch panel(s) 25, 26, the
base door 7 also moves in manual operation if a destination position is nonetheless available in this direction. In this case, it is possible to define e.g. a maximum actuation time of thetravel panels buttons - A destination position P0, P1, P2, PZ can be any desired position of the
base door 7 between and including the zero position P0 and the maximum opening position PZ. However, the maximum stored opening position PZ does not have to be the position which is in contact with thework surface 8. Storage of the destination position P0, P1, P2, PZ can be carried out with thebase door 7 at the desired destination position P0, P1, P2, PZ by means of e.g. actuating aconfirmation button 28 in theoperating panel 12 for several seconds (e.g. two seconds). For the sake of greater clarity, available optical and/or acoustic signal emitters which output corresponding signals following storage of a destination position are not drawn. Arriving at the desired destination position P0, P1, P2, PZ to be set is achieved e.g. by means of—in this exemplary embodiment—two-handed operation of thetravel switch panels - It is possible to store just one or, as shown in this exemplary embodiment, also a plurality of destination positions P0, P1, P2, PZ in the
memory unit 27. In the case of a plurality of destination positions P0, P1, P2, PZ, these can be reached successively by actuating thecorresponding travel buttons - For ergonomic use it is particularly advantageous if the or a destination position P1, P2, PZ opens the
base door 7 at least approximately 400 mm to approximately 540 mm (i.e. P1-P0, P2-P0, PZ-P0≧40 cm to 54 cm). At this opening distance, thecooking item carriers 21 can easily be inserted into thesupport parts 20. In this case, it is advantageous if theviewing window 4 is mounted at approximately eye level of the user or somewhat lower, e.g. by means of a template which indicates the dimensions of the cooking appliance. - A power failure protection for bridging power outages lasting approximately 1 to 3 s, preferably up to 1.5 s, is present but not illustrated.
- The
drive motor 9 fromFIG. 1 has at least onesensor unit motor shaft 30, these being arranged before or after a transmission if applicable, in order to measure a travel displacement or a position and/or a speed of thebase door 7. The sensor unit can comprise e.g. one or more induction sensors, Hall-effect sensors, optoelectronic sensors, SAW sensors, etc. In this case, in order to measure displacement and speed in a simple manner, two Hall-effect (partial)elements 31 are attached to themotor shaft 30 such that they are offset by 180°—i.e. opposite each other—and a Hall-effect measurement pick-up 32 is separately attached in a fixed manner in this region of the motor shaft. When a Hall-effect element 31 then travels past the measurement pick-up 32 as themotor shaft 30 rotates, a measurement signal or sensor signal is generated which is closely approximate to digital. Using (not necessarily) two Hall-effect elements 31, therefore, two signals are output with one rotation of themotor shaft 30. By analyzing these signals relative to time, e.g. their time difference, it is possible to determine the speed vL of thebase door 7, e.g. using comparison tables or a real-time conversion in thecontrol circuit 13. By means of adding or subtracting the measurement signals, it is possible to determine a travel displacement or a position of thebase door 7. - A speed regulator can realize the speed e.g. via a PWM-controlled power semiconductor.
- In order to determine the zero point, the displacement measurement is automatically reset by initializing in the zero position P0 of the
base door 7 at each start-up, in order that e.g. an erroneous sensor signal output or sensor signal pick-up is not perpetuated. - The
drive motor 9 can be operated by actuating bothtravel switch panels main switch 29 is switched off. - Instead of two separate switches per
travel panel operating elements panel 12 are likewise not restricted. - The arrangement and distribution of the
control circuit 13 is flexible and not restricted in this case, and can therefore comprise a plurality of boards, e.g. a display board, a control board and a lift board, which are physically separate. - A 4-mm opening can be detected by
stop switches 33 which, when actuated, deactivate a pinching protection. - The high-level cooking appliance can also be embodied without a
memory unit 27, in which case no automatic operation is then possible. This can be suitable for increased operating safety, e.g. as protection against pinching. -
FIG. 6 shows a schematic circuit diagram of thecontrol circuit 13 connected to thedrive motor 9. Thecontrol circuit 13 consists in this case of three separate boards or modules, specifically a lift board 34 for directly actuating thedrive motor 9, a regulator board 35 for, inter alia, switching and/or regulating the lift board 34, and a display board 36 for controlling the operatingpanel 12, e.g. thedisplay unit 14, and processing and/or forwarding actuation signals of theoperating elements 11. The boards 34-36 are connected to one another for communication purposes via a DII bus line 37; the boards 34-36 can therefore also be arranged at different positions in the cooking appliance, e.g. the display board 36 behind the operatingpanel 12, the regulator board 35 in the stationary part of thehousing 1, and the lift board 34 in proximity to thedrive motor 9. - The direction of the travel movement of the
drive motor 9 and consequently of thebase door 3 is determined by two relays (not shown in the figure) which are controlled by means of transistors. If one of the relays is active, thedrive motor 9 travels in the assigned direction. If both relays are active—something which should be prevented under normal conditions—thedrive motor 9 blocks. If no relay is active, themotor 9 is short-circuited and no travel movement is possible (idle state). In this exemplary embodiment themotor 9 can only be driven if at least two safety signals are present; which is to say in this case that only then can the transistors be triggered accordingly. A first safety signal is a(n) (internal) safety signal S1 which is generated by the lift board 34 itself and is generated e.g. upon correct actuation of the travel movement or lift function, for example by actuation of the travel switches 25 a, 25 b, 26 a, 26 b. The first safety signal S1 ensures that a travel movement signal is correctly received and processed on the lift board 34—i.e. that no error-induced switching of the relays by the lift board 34 is present—as otherwise the circuit for the safety signal, typically a microcontroller, would not trigger. Accordingly, this safety signal S1 includes that the lift board electronics are basically operating correctly. The second safety signal is a(n) (external) safety signal S2 which is generated by the regulator board 35 and typically takes into account further states managed by the regulator board 35, e.g. a temperature in theclosed cooking compartment 3 or an activation of achild safety device 40. In this embodiment the external safety signal S2 produces a dual activation: firstly the voltage supply for the relays and secondly, in conjunction with the internal safety signal S1, the corresponding transistor. In this exemplary embodiment the safety signals S1, S2 are pulse signals (“wiggler signals”), more precisely: square wave signals, clocked at 1 KHz, which is advantageous, since most available microcontrollers must operate correctly for this. - A typical sequence of an actuation of the
drive motor 9 takes place as follows: a user wishes to open aclosed cooking compartment 3 containing a prepared dish in order to remove said dish. For that purpose he/she briefly, i.e. for less than 0.4 seconds, presses one of the “OPEN”buttons 25 b in the automatic mode of operation. The actuation of the “OPEN”button 25 b is sensed by the display board 36 and in this exemplary embodiment is forwarded via the signal bus 37 to the lift board; alternatively the actuation signal S3 can be routed via a direct line to the lift board 34. The lift board 34 detects the correct actuation signal S3 and generates the internal safety signal S1. In addition, the lift board 34 now requests the external safety signal S2 from the regulator board 35 via the bus 37. The regulator board 35 checks whether any further conditions oppose a transmission of the external safety signal S2; thus, a check is made to verify firstly whether thechild safety device 40 is switched off and secondly whether atemperature sensor 39 indicates a temperature in thecooking compartment 3 that is lower than a temperature threshold value of e.g. 425° C. or 600° F. The external safety signal S2 is output only if there are no further opposing conditions. In this embodiment the corresponding transistor and hence the corresponding directional relay are only triggered via acontrol line 38 if both the internal safety signal S1 and the external safety signal S2 are present. By means of the external safety signal S2 the voltage supply for the relays is activated in addition by switching-on of thetransformer 41 for thedrive motor 9. Only then can the drivemotor 9 be actuated, and thebase door 3 executes a travel movement accordingly. The external safety signal S2 thus has a dual safety function. Alternatively, however, the external safety signal S2 may also have only one of these functionalities. Furthermore, before the travel movement ofbase door 7 is initiated, both relays are additionally checked to verify their functionality. - The regulator board 35 uses a temperature measurement output by the
temperature sensor 39, e.g. a Pt500 or Pt1000 temperature sensor, to check, for example, whether thecooking compartment 3 is too hot to be opened. If the temperature is above a certain temperature threshold value, e.g. 415° C. or 600° F., the regulator board 35 does not output an external safety signal and the travel movement of thebase door 7 is not triggered (locking). This locking or, as the case may be, deactivation of the external safety square wave signal S2 can be effected by way of a hardware circuit, e.g. in such a way that if the temperature threshold value is exceeded, a switch required for switching the external safety signal S2 is forced to open or remains open. Alternatively the lock can also be applied under program control. - The
control circuit 13 may also be subdivided differently or not be subdivided at all. Obviously, the type and arrangement of the circuitry and signal controller are also not limited to the exemplary embodiment described. Furthermore, more or fewer than two safety signals may be used, e.g. only safety signal S1 or S2, since even just one safety signal provides increased functional safety when travel movements are executed. It is also possible that further safety conditions are to be complied with during travel movements of the door. -
- 1 Housing
- 2 Wall
- 3 Cooking compartment
- 4 Viewing window
- 5 Muffle
- 6 Muffle opening
- 7 Base door
- 8 Work surface
- 9 Drive motor
- 10 Lifting element
- 11 Operating element
- 12 Operating panel
- 13 Control circuit
- 14 Display elements
- 15 Cooking matrix
- 16 Cooking position heating element
- 17 Cooking position heating element
- 18 Surface heating element
- 19 Glass ceramic plate
- 20 Support part
- 21 Cooking item carrier
- 22 Top heating element
- 23 Fan
- 24 Seal
- 25 Travel switch panel
- 25 a Travel switch upward
- 25 b Travel switch downward
- 26 Travel switch panel
- 26 a Travel switch upward
- 26 b Travel switch downward
- 27 Memory unit
- 28 Confirmation button
- 29 Main switch
- 30 Motor shaft
- 31 Hall-effect element
- 32 Measurement pick-up
- 33 Stop switch
- 34 Lift board
- 35 Regulator board
- 36 Display board
- 37 Bus line
- 38 Control line
- 39 Temperature sensor
- 40 Child safety device
- 41 Transformer
- FT1 First force/time profile
- FT2 Second force/time profile
- P0 Zero position
- P1 Intermediate position
- P2 Intermediate position
- PZ Final position
- R1 Speed ramp
- R2 Speed ramp
- S1 Internal safety signal
- S2 External safety signal
- S3 Travel movement signal
- vL Travel speed of the base door
Claims (20)
1-19. (canceled)
20. A cooking appliance comprising:
a muffle which defines a cooking compartment and includes a muffle opening,
a door for closing the muffle opening,
a drive device for moving the door between an opened condition and a closed condition with respect to the muffle opening, and
a control circuit for controlling the drive device wherein the door cannot be activated for movement unless at least one safety signal is received by the control circuit.
21. The cooking appliance according to claim 20 wherein the control circuit is configured to activate driven door movement when two safety signals are received by the control circuit.
22. The cooking appliance according to claim 20 wherein at least one of the safety signals is generated responsive to a temperature within a closed cooking compartment being below a predetermined temperature threshold value.
23. The cooking appliance according to claim 22 wherein at least one of the safety signals is generated responsive to a temperature within a closed cooking compartment being below 600° F. (425° C.).
24. The cooking appliance according to claim 20 wherein the at least one safety signal is generated only if a child safety device in electrical communication with the control circuit is not activated.
25. The cooking appliance according to claim 20 wherein the at least one safety signal is formed as a pulsed square wave signal.
26. The cooking appliance according to claim 20 wherein the control circuit is configured to activate a voltage supply for a drive motor of the drive device responsive to at least one safety signal.
27. The cooking appliance according to claim 20 wherein the control circuit includes at least one lift board configured to activate a voltage supply for a drive motor of the drive device and a regulator board for at least one of switching and regulating the lift board.
28. The cooking appliance according to claim 27 wherein an internal safety signal is generated by the lift board and an external safety signal is generated by the regulator board.
29. The cooking appliance according to claim 27 wherein the internal safety signal can be generated by the lift board in response to a travel movement signal.
30. The cooking appliance according to claim 28 wherein the external safety signal can be generated by the regulator board as directed by the lift board.
31. The cooking appliance according to claim 28 wherein the regulator board is in operational communication with one of a temperature sensor for monitoring a temperature of the cooking compartment and a child safety device.
32. The cooking appliance according to claim 31 and further comprising a circuit for deactivating the external safety signal, with the deactivation circuit being switchable responsive to signals from one of the temperature sensor and the child safety device.
33. The cooking appliance according to claim 31 and further comprising a computer program product for deactivating the external safety signal responsive to signals from one of the temperature sensor and the child safety device.
34. The cooking appliance according claim 20 wherein the drive device includes a drive motor in operational communication with a plurality of directional relays for selective actuation thereby with the directional relays being switchable by at least one transistor operatively associated therewith.
35. The cooking appliance according to claim 27 and further comprising at least one bus line in communication with the lift board and the regulator board for communication between the lift board and the regulator board.
36. The cooking appliance according to claim 20 wherein said cooking appliance is configured for mounting above countertop level with a plurality of sides and a downwardly directed muffle opening and the door is configured for covering the downwardly directed muffle opening.
37. A method for operating cooking appliance comprising the following steps:
(a) generating a travel movement starting signal, in particular by actuating at least one travel switch panel;
(b) receiving the travel movement starting signal at the lift board;
(c) generating an internal safety signal on the lift board;
(d) requesting an external safety signal from the regulator board by the lift board;
(e) generating an external safety signal on the regulator board if no lock is present;
(f) determining whether a lock is present and when no lock is present, outputting the external safety signal to the lift board and to a voltage supply for the drive device;
(g) operating the drive device in the desired direction by means of the lift board, provided both the internal safety signal and the external safety signal are present.
38. A method for operating a cooking appliance comprising the steps of:
providing a muffle which defines a cooking compartment and includes a muffle opening, a door for closing the muffle opening, a drive device for moving the door between an opened condition and a closed condition with respect to the muffle opening, and a control circuit for controlling the drive device; and
controlling the drive device with the control circuit for initiating movement of the door when at least one safety signal received by the control circuit.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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DE102005038881.7 | 2005-08-17 | ||
DE102005038881A DE102005038881A1 (en) | 2005-08-17 | 2005-08-17 | Cooking appliance |
PCT/EP2006/064659 WO2007020159A1 (en) | 2005-08-17 | 2006-07-26 | Cooking appliance |
Publications (1)
Publication Number | Publication Date |
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US20090229475A1 true US20090229475A1 (en) | 2009-09-17 |
Family
ID=37440958
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US11/990,528 Abandoned US20090229475A1 (en) | 2005-08-17 | 2006-07-26 | Cooking appliance |
Country Status (6)
Country | Link |
---|---|
US (1) | US20090229475A1 (en) |
EP (1) | EP1917481B1 (en) |
DE (1) | DE102005038881A1 (en) |
ES (1) | ES2745809T3 (en) |
PL (1) | PL1917481T3 (en) |
WO (1) | WO2007020159A1 (en) |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20140096706A1 (en) * | 2012-10-10 | 2014-04-10 | Jean-Paul Labrosse | Height-Adjustable Support Surface and System for Encouraging Human Movement and Promoting Wellness |
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DE102005044693A1 (en) * | 2005-09-19 | 2007-03-22 | BSH Bosch und Siemens Hausgeräte GmbH | High-level cooking appliance |
DE102011116600B4 (en) * | 2011-10-21 | 2017-11-23 | Diehl Ako Stiftung & Co. Kg | Device for opening and / or closing a door |
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US11250686B2 (en) | 2009-05-28 | 2022-02-15 | Weber-Stephen Products Llc | Remote cooking systems and methods |
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US20140096706A1 (en) * | 2012-10-10 | 2014-04-10 | Jean-Paul Labrosse | Height-Adjustable Support Surface and System for Encouraging Human Movement and Promoting Wellness |
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US10827829B1 (en) | 2012-10-10 | 2020-11-10 | Steelcase Inc. | Height adjustable support surface and system for encouraging human movement and promoting wellness |
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US20150245420A1 (en) * | 2013-12-20 | 2015-08-27 | Theresa Peterson | Vertical Tortilla Cooking Device |
US10887952B2 (en) * | 2013-12-20 | 2021-01-05 | Theresa Peterson | Vertical tortilla cooking device |
US10869118B2 (en) | 2014-02-04 | 2020-12-15 | Steelcase Inc. | Sound management systems for improving workplace efficiency |
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US9921726B1 (en) | 2016-06-03 | 2018-03-20 | Steelcase Inc. | Smart workstation method and system |
US10863825B1 (en) | 2016-10-17 | 2020-12-15 | Steelcase Inc. | Ergonomic seating system, tilt-lock control and remote powering method and apparatus |
US10390620B2 (en) | 2016-10-17 | 2019-08-27 | Steelcase Inc. | Ergonomic seating system, tilt-lock control and remote powering method and apparatus |
US10631640B2 (en) | 2016-10-17 | 2020-04-28 | Steelcase Inc. | Ergonomic seating system, tilt-lock control and remote powering method and apparatus |
US10085562B1 (en) | 2016-10-17 | 2018-10-02 | Steelcase Inc. | Ergonomic seating system, tilt-lock control and remote powering method and appartus |
CN106571802A (en) * | 2016-10-26 | 2017-04-19 | 宁波方太厨具有限公司 | Working state control method for equipment having noncontact induction knob switch |
US11369012B2 (en) * | 2019-07-02 | 2022-06-21 | William Langford | Combination lifting mechanism for microwave oven and cooking range ventilating hood |
US20230127677A1 (en) * | 2021-10-26 | 2023-04-27 | Littelfuse, Inc. | Magnetic sensing system for multiple door appliances |
US11892525B2 (en) * | 2021-10-26 | 2024-02-06 | Littelfuse, Inc. | Magnetic sensing system for multiple door appliances |
Also Published As
Publication number | Publication date |
---|---|
EP1917481B1 (en) | 2019-09-11 |
WO2007020159A1 (en) | 2007-02-22 |
EP1917481A1 (en) | 2008-05-07 |
PL1917481T3 (en) | 2020-03-31 |
ES2745809T3 (en) | 2020-03-03 |
DE102005038881A1 (en) | 2007-02-22 |
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Legal Events
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AS | Assignment |
Owner name: BSH BOSCH UND SIEMENS HAUSGERATE GMBH, GERMANY Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:BALLY, INGO;FELDMANN, KERSTIN;FUCHS, WOLFGANG;AND OTHERS;REEL/FRAME:020573/0718 Effective date: 20080212 |
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STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |